RU57829U1 - EMERGENCY MINE ALERT SYSTEM - Google Patents

Abstract

The operational mine warning system refers to wireless alarm systems used in the mining, mining and coal industries, and is intended for prompt individual notification of miners in underground workings about accidents, as well as calling any individual subscriber to communicate with the mining manager by transmitting sequences of conditional signals.

The system contains a transmitting kit consisting of a transmitter of a narrow-band audio signal operating in the lower tonal frequency range, and a transmitting antenna, electric or magnetic, located on the surface above the mine field or on the working horizons of the mine, and located in the mine by the number of points alerts, receiving sets, each of which consists of a portable signal converter with a power supply and an integrated receiver of a narrow-band radio signal collected on radio elements of large xoy integration and comprising a receiving antenna, made of a multilayer inductor with a magnetic core, the apparatus for receiving and processing the signal and an output device. Moreover, the size of the magnetic core of the receiving antenna is reduced by increasing the number of turns of the antenna coil, and the upper layer of the coil winding is connected to a common point of the receiver circuit of the narrowband radio signal, while the lower layer of the winding of the inductance coil of the receiving antenna is connected to the input of the signal receiving and processing device.

The system can be used in mines and mines hazardous for gas and dust when connecting its transmitting antenna to a narrow-band signal transmitter through an intrinsic safety device that ensures the fulfillment of the requirements for explosion protection of type “i” (“intrinsically safe circuit”) (1 npf, 1 s.p.f., 1 ill.).

Description

The operational mine warning system refers to wireless alarm systems used in the mining, mining and coal industries, and is intended for prompt individual notification of miners in underground workings about accidents, as well as calling any individual subscriber to communicate with the mining manager by transmitting sequences of conditional signals.

The main factors determining the operating conditions and design features of the mine systems of operational warning and communication systems include the following:

- a high level of attenuation (absorption) of radio signals when passing through a rock mass, depending on the frequency of the radio signals (the higher the frequency, the higher the attenuation level), which determines the need to use extra-long radio waves (tonal frequency range) and imposes high requirements on the sensitivity of receiving devices;

- a high level of electromagnetic interference arising from the operation of mining equipment located in underground workings, which imposes stringent requirements on the selectivity of receiving devices;

- limitation of the mass, dimensions and energy consumption of personal use equipment;

- increased humidity and chemical aggressiveness of the environment;

- possible gas contamination of the atmosphere of mine workings with explosive air mixtures of gases (methane, etc.) and dust, which is especially characteristic

for coal mines and stipulates the requirement to perform equipment in intrinsically safe design;

- ease of use and low cost.

Known systems for rescue RF communications on metal rails, providing for the possibility of installing direct communication of the command (control) point, both with the underground base and with rescue units. These systems operate at frequencies of units of megahertz (the book. "Low-frequency wireless communication in the mines", Moscow, "Nedra", 1975, p.198).

The disadvantages of the mine rescue RF communication system are the limited coverage area (only in the vicinity of the guides), which does not allow using it as a system of general mine warning, and the use of wire lines, which reduces the reliability of signal transmission.

Known systems for operational mine warning and communication using a range of extra-long waves at frequencies of tens of kilohertz ("Call", "FlexAlert", "PED SYSTEM", etc.), which also do not allow you to create a system that provides coverage by operational (emergency) notification of all points underground workings without installing additional amplifiers (repeaters) of the transmitted signal.

The closest analogue (prototype) is a wireless alarm device (AS USSR No. 578455, E 21 C 35/24, prior. 03/31/1975, publ. 10/30/1977, bull. No. 40), containing a transmitting set installed on the surface of the earth, consisting of a narrow-band signal transmitter, and a transmitting antenna made in the form of an electric dipole with earthing switches or a magnetic frame dipole located on the surface of the mine field or on one of the working horizons of the mine, and placed in the mine by the number of points alerts, reception complete sets, each of which consists of a signal converter, in this case, a portable mine

luminaire, with a power supply and an integrated receiver of a narrowband radio signal containing a receiving antenna, a device for receiving and processing a signal and an output device.

The system allows you to generate signals of an accident or an individual selective call, which are converted and emitted by a transmitting antenna in the form of electromagnetic waves. Electromagnetic waves, propagating through the thickness of the rocks, are received by the receiver antenna. The receiving set receives the magnetic component of the electromagnetic field of the useful signal and converts the radio signal into a blinking light source of an individual mine lamp. This system is characterized by a low value of the carrier frequency (lower tonal frequency range), which ensures good transmission (low attenuation) of the signal through the rock mass and the possibility of using a transmitting antenna of great length, which allows covering the entire mine field without installing additional transmitters of the transmitted signal.

The disadvantages of the prototype are:

- significant dimensions of the receiving set due to the significant dimensions of the receiving antenna;

- insufficient noise immunity of the receiving set, caused by low selectivity of the receiving path of the signal receiving and processing device;

- inconsistency of the transmitting antenna performance with explosion protection requirements, which means the impossibility of using the system in mines and mines hazardous in gas and dust, where for some reason (large depth of working horizons, permafrost zone, location of the mine field under the quarry, etc.) it is necessary position the transmit antenna in underground workings.

The technical problem, which this utility model is aimed at, is to increase the reliability of alerts in the conditions of action

strong electromagnetic interference, the effects of a chemically aggressive environment, the presence of explosive air mixtures and explosive dust while reducing the size of the receiver kit.

The technical problem is achieved by obtaining the following technical result:

- reducing the probability of skipping a transmitted signal, for example, an alarm signal, by a receiving set of equipment and increasing the probability of receiving a warning signal in the presence of strong electromagnetic interference, by improving the signal-to-noise ratio at the antenna output of the receiving set;

- expanding the scope of the system to mines and mines hazardous in gas and dust, on which for one reason or another it is unacceptable or impossible to locate the transmitting antenna on the surface of the mine.

The technical result is achieved through the use of an operational mine warning system containing a transmitting kit consisting of a narrowband signal transmitter operating in the lower tonal frequency range and a transmitting antenna, electric or magnetic, located on the surface above the mine field or at the working horizons of the mine (mine ), and, located in the mine by the number of warning points, receiving sets, each of which consists of a portable signal converter with a power supply embedded narrowband radio receiver comprising a receiving antenna, consisting of a multilayer inductor with a magnetic core, the apparatus for receiving and processing the signal and an output device.

The inventive operational mine warning system differs from the prototype in that the narrow-band signal receiver is made on radio elements of a large degree of integration, and the size of the magnetic core of the receiving antenna is reduced by increasing the number of turns of its coil, while the upper layer of the coil winding of the receiving antenna

connected to a common point of the receiver circuit of the narrowband radio signal, and the lower layer of the coil winding of the receiving antenna is connected to the input of the signal receiving and processing device.

In addition, the connection of the transmitting antenna to the narrow-band signal transmitter is carried out through an intrinsic protection device, which ensures the fulfillment of the requirements of explosion protection of type “i” (“intrinsically safe circuit”).

In FIG. shows a functional diagram of an operational mine warning system.

The system comprises a transmitting set 1 (Fig.) Mounted on the surface of the earth, including a signal supply panel 2, a narrow-band transmitter of electromagnetic signals of sound frequency 3, operating in the lower range of tonal frequencies and connected to a power supply 4. The narrow-band transmitter 3 is connected via an intrinsic safety device 5 s transmitting antenna 6, electric type with grounding 7 or magnetic frame type (not shown in Fig.), located either on the surface above the mine field, or on the working horizons of the mine (w hty). Transmitting antenna 6 has a large length (from hundreds of meters to tens of kilometers). The specific design of the transmitting antenna 6 is determined by the specific geological conditions of the mine (mine). The receiving sets 8 installed in the mine working or located by personnel working underground, consist of a portable signal converter 9, which can be used, for example, an individual mine lamp, with a power supply 10 and an integrated narrow-band radio signal receiver 11, also connected to a power supply unit 10 and including a receiving magnetic antenna 12 connected in series, a signal receiving and processing device 13 and an output device 14.

The electromagnetic field of sound frequency generated by the transmitter 3 penetrates through the thickness of the rock mass using a transmitting antenna 6,

that allows you to cover all underground facilities equipped with receiving sets 8, including those located at a considerable distance from the transmitting antenna, without installing additional amplifiers (repeaters) of the transmitted signal.

The system operates as follows.

In the event of an accident or the need for an individual call of the subscriber to communicate with the manager of mining operations, the button for the signal transmitter 2 turns on the transmitter of electromagnetic signals of sound frequency 3 of the transmission set 1. The transmitter 3, operating in the lower range of tonal frequencies, converts the signal of the accident or call using the transmit antenna 6 into electromagnetic waves. Electromagnetic vibrations emitted by a transmitting antenna 6, of an electric type with ground electrodes 7 or of a magnetic frame type (not shown in Fig.) Are transmitted through the rock mass to underground workings, where they are perceived by the receiving antenna 12 of the narrow-band receiver 11 of the receiving set 8, which each miner equipped with in working out. The reduction in the dimensions of the receiving antenna 12 is achieved by reducing the dimensions of its magnetic core, while the efficiency of the antenna is maintained by increasing the number of turns of the antenna coil. In addition, the overall dimensions and mass of the narrow-band receiver 11 are reduced due to the use of radio elements of a large degree of integration, which generally reduces the dimensions and weight of the receiving sets 8. In addition, this design of the narrow-band receiver 11 can reduce the energy consumption by the power supply unit by an order of magnitude. Connection the upper layer of the multilayer coil of the receiving antenna 12 to the common point of the narrowband receiver circuit 11, and its lower layer to the input of the signal receiving and processing device 13 allows due to the screen ation lower 3 times or more the level of electromagnetic interference with the antenna output 12, and hence the same factor to improve the signal / noise ratio, since in this case

the upper layer of the multilayer coil of the receiving antenna 12 performs the function of an electromagnetic shield due to the small intrinsic inductance in comparison with the inductance of the antenna itself 12. Such a connection not only reduces the probability of skipping the transmitted signal compared to the prototype, but also does not require a fundamental change in design and, therefore, additional financial costs. Next, the radio signal is converted by the signal receiving and processing device 13 and the output device 14 into the light or sound signal of the portable signal converter 9, which is powered by the unit 10. As a portable signal converter 9, for example, a head shaft lamp that converts the signals of a narrow-band receiver 11 can be used in conditional light signals of an accident or individual call of a subscriber to communicate with the dispatcher.

Connecting the transmitting antenna 6 to the narrow-band signal transmitter through the spark protection device 5 allows using this system in underground workings of mines and mines hazardous in gas and dust, since the explosion protection requirements of type “i” (“intrinsically safe circuit”) are fulfilled.

Claims (2)

1. The operational mine warning system, including a transmitting set consisting of a narrow-band signal transmitter operating in the lower tonal frequency range, and an electric or magnetic type transmitting antenna located on the surface above the mine field or on the mine working horizons, and located in the mine working according to the number of warning points, receiving sets, each of which consists of a portable signal converter with a power supply and a narrow-band radio signal receiver containing a receiving antenna NNU, consisting of a multilayer inductor with a magnetic core, a signal receiving and processing device and an output device, characterized in that the receiving set is made on radio elements of a high degree of integration, and the size of the magnetic core of the receiving antenna is reduced by increasing the number of turns of the inductor, while the upper layer of the winding of the inductance coil of the receiving antenna is connected to a common point of the receiver circuit of the narrowband radio signal, and the lower layer of the winding of the inductance of the receiving antenna the antenna is connected to the input of the signal receiving and processing device. 2. The system according to claim 1, characterized in that the transmitting antenna is connected to the narrow-band signal transmitter through an intrinsic protection device, which ensures the fulfillment of explosion protection requirements of type "i"("intrinsically safe circuit").